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day 12 (awful)

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Lucia Ceionia
2024-12-12 00:28:39 -06:00
parent eff926cd5b
commit fe0a773138
3 changed files with 408 additions and 0 deletions
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67
12/build.zig Normal file
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const std = @import("std");
// Although this function looks imperative, note that its job is to
// declaratively construct a build graph that will be executed by an external
// runner.
pub fn build(b: *std.Build) void {
// Standard target options allows the person running `zig build` to choose
// what target to build for. Here we do not override the defaults, which
// means any target is allowed, and the default is native. Other options
// for restricting supported target set are available.
const target = b.standardTargetOptions(.{});
// Standard optimization options allow the person running `zig build` to select
// between Debug, ReleaseSafe, ReleaseFast, and ReleaseSmall. Here we do not
// set a preferred release mode, allowing the user to decide how to optimize.
const optimize = b.standardOptimizeOption(.{});
const exe = b.addExecutable(.{
.name = "12",
.root_source_file = b.path("src/main.zig"),
.target = target,
.optimize = optimize,
});
// This declares intent for the executable to be installed into the
// standard location when the user invokes the "install" step (the default
// step when running `zig build`).
b.installArtifact(exe);
// This *creates* a Run step in the build graph, to be executed when another
// step is evaluated that depends on it. The next line below will establish
// such a dependency.
const run_cmd = b.addRunArtifact(exe);
// By making the run step depend on the install step, it will be run from the
// installation directory rather than directly from within the cache directory.
// This is not necessary, however, if the application depends on other installed
// files, this ensures they will be present and in the expected location.
run_cmd.step.dependOn(b.getInstallStep());
// This allows the user to pass arguments to the application in the build
// command itself, like this: `zig build run -- arg1 arg2 etc`
if (b.args) |args| {
run_cmd.addArgs(args);
}
// This creates a build step. It will be visible in the `zig build --help` menu,
// and can be selected like this: `zig build run`
// This will evaluate the `run` step rather than the default, which is "install".
const run_step = b.step("run", "Run the app");
run_step.dependOn(&run_cmd.step);
const exe_unit_tests = b.addTest(.{
.root_source_file = b.path("src/main.zig"),
.target = target,
.optimize = optimize,
});
const run_exe_unit_tests = b.addRunArtifact(exe_unit_tests);
run_exe_unit_tests.has_side_effects = true;
// Similar to creating the run step earlier, this exposes a `test` step to
// the `zig build --help` menu, providing a way for the user to request
// running the unit tests.
const test_step = b.step("test", "Run unit tests");
test_step.dependOn(&run_exe_unit_tests.step);
}

72
12/build.zig.zon Normal file
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.{
// This is the default name used by packages depending on this one. For
// example, when a user runs `zig fetch --save <url>`, this field is used
// as the key in the `dependencies` table. Although the user can choose a
// different name, most users will stick with this provided value.
//
// It is redundant to include "zig" in this name because it is already
// within the Zig package namespace.
.name = "12",
// This is a [Semantic Version](https://semver.org/).
// In a future version of Zig it will be used for package deduplication.
.version = "0.0.0",
// This field is optional.
// This is currently advisory only; Zig does not yet do anything
// with this value.
//.minimum_zig_version = "0.11.0",
// This field is optional.
// Each dependency must either provide a `url` and `hash`, or a `path`.
// `zig build --fetch` can be used to fetch all dependencies of a package, recursively.
// Once all dependencies are fetched, `zig build` no longer requires
// internet connectivity.
.dependencies = .{
// See `zig fetch --save <url>` for a command-line interface for adding dependencies.
//.example = .{
// // When updating this field to a new URL, be sure to delete the corresponding
// // `hash`, otherwise you are communicating that you expect to find the old hash at
// // the new URL.
// .url = "https://example.com/foo.tar.gz",
//
// // This is computed from the file contents of the directory of files that is
// // obtained after fetching `url` and applying the inclusion rules given by
// // `paths`.
// //
// // This field is the source of truth; packages do not come from a `url`; they
// // come from a `hash`. `url` is just one of many possible mirrors for how to
// // obtain a package matching this `hash`.
// //
// // Uses the [multihash](https://multiformats.io/multihash/) format.
// .hash = "...",
//
// // When this is provided, the package is found in a directory relative to the
// // build root. In this case the package's hash is irrelevant and therefore not
// // computed. This field and `url` are mutually exclusive.
// .path = "foo",
// // When this is set to `true`, a package is declared to be lazily
// // fetched. This makes the dependency only get fetched if it is
// // actually used.
// .lazy = false,
//},
},
// Specifies the set of files and directories that are included in this package.
// Only files and directories listed here are included in the `hash` that
// is computed for this package. Only files listed here will remain on disk
// when using the zig package manager. As a rule of thumb, one should list
// files required for compilation plus any license(s).
// Paths are relative to the build root. Use the empty string (`""`) to refer to
// the build root itself.
// A directory listed here means that all files within, recursively, are included.
.paths = .{
"build.zig",
"build.zig.zon",
"src",
// For example...
//"LICENSE",
//"README.md",
},
}

269
12/src/main.zig Normal file
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// wow! i am bad at code. shitty day i just wanted it to Work
// awful way to do it especially in part 2 what was i even doing
const std = @import("std");
var arena = std.heap.ArenaAllocator.init(std.heap.page_allocator);
const alloc = arena.allocator();
const test_data = @embedFile("test");
const input_data = @embedFile("input");
pub fn main() !void {
const stdout = std.io.getStdOut().writer();
const value1 = try run1(input_data);
try stdout.print("{d}\n", .{value1});
const value2 = try run2(input_data);
try stdout.print("{d}\n", .{value2});
}
test "test input part 1" {
std.debug.print("\n", .{});
const value = try run1(test_data);
std.debug.print("{d}\n", .{value});
try std.testing.expectEqual(1930, value);
}
test "test input part 2" {
std.debug.print("\n",.{});
const value = try run2(test_data);
std.debug.print("{d}\n", .{value});
try std.testing.expectEqual(1206, value);
}
fn parseIntFromReader(reader: anytype) anyerror!u64 {
const f = try reader.readByte();
if (f < '0' or f > '9') return error.BadCharacter;
var v: u64 = f - '0';
while (true) {
const c = try reader.readByte();
if (c < '0' or c > '9') {
break;
} else {
v = (v * 10) + (c - '0');
}
}
return v;
}
var r2map: [256][256]u8 = [_][256]u8{[_]u8{0}**256}**256;
var r2done: [256][256]u8 = [_][256]u8{[_]u8{0}**256}**256;
var r2edges: [256][256]u8 = [_][256]u8{[_]u8{0}**256}**256;
var r2dim: usize = undefined;
fn run2_r(y: usize, x: usize) void {
const c = r2map[y][x];
r2done[y][x] = 1;
if (y > 0 and r2map[y-1][x] == c) {
if (r2done[y-1][x] == 0) run2_r(y-1, x);
} else {
r2edges[y][x] |= 0b1;
}
if (x > 0 and r2map[y][x-1] == c) {
if (r2done[y][x-1] == 0) run2_r(y, x-1);
} else {
r2edges[y][x] |= 0b10;
}
if (y < r2dim-1 and r2map[y+1][x] == c) {
if (r2done[y+1][x] == 0) run2_r(y+1, x);
} else {
r2edges[y][x] |= 0b100;
}
if (x < r2dim-1 and r2map[y][x+1] == c) {
if (r2done[y][x+1] == 0) run2_r(y, x+1);
} else {
r2edges[y][x] |= 0b1000;
}
}
fn run2_r2(y: usize, x: usize, area: *u64, perimeter: *u64) void {
const c = r2map[y][x];
r2done[y][x] = 2;
area.* += 1;
// top edge
if (r2edges[y][x] & 0b1 != 0) {
perimeter.* += 1;
var ix = x;
while (ix >= 0) : (ix -= 1) {
if (r2map[y][ix] != c) break;
if (r2edges[y][ix] & 0b1 == 0) break;
r2edges[y][ix] &= ~@as(u8,0b1);
if (ix == 0) break;
}
ix = x+1;
while (ix < r2dim) : (ix += 1) {
if (r2map[y][ix] != c) break;
if (r2edges[y][ix] & 0b1 == 0) break;
r2edges[y][ix] &= ~@as(u8,0b1);
}
}
// bottom edge
if (r2edges[y][x] & 0b100 != 0) {
perimeter.* += 1;
var ix = x;
while (ix >= 0) : (ix -= 1) {
if (r2map[y][ix] != c) break;
if (r2edges[y][ix] & 0b100 == 0) break;
r2edges[y][ix] &= ~@as(u8,0b100);
if (ix == 0) break;
}
ix = x+1;
while (ix < r2dim) : (ix += 1) {
if (r2map[y][ix] != c) break;
if (r2edges[y][ix] & 0b100 == 0) break;
r2edges[y][ix] &= ~@as(u8,0b100);
}
}
// left edge
if (r2edges[y][x] & 0b10 != 0) {
perimeter.* += 1;
var iy = y;
while (iy >= 0) : (iy -= 1) {
if (r2map[iy][x] != c) break;
if (r2edges[iy][x] & 0b10 == 0) break;
r2edges[iy][x] &= ~@as(u8,0b10);
if (iy == 0) break;
}
iy = y+1;
while (iy < r2dim) : (iy += 1) {
if (r2map[iy][x] != c) break;
if (r2edges[iy][x] & 0b10 == 0) break;
r2edges[iy][x] &= ~@as(u8,0b10);
}
}
// right edge
if (r2edges[y][x] & 0b1000 != 0) {
perimeter.* += 1;
var iy = y;
while (iy >= 0) : (iy -= 1) {
if (r2map[iy][x] != c) break;
if (r2edges[iy][x] & 0b1000 == 0) break;
r2edges[iy][x] &= ~@as(u8,0b1000);
if (iy == 0) break;
}
iy = y+1;
while (iy < r2dim) : (iy += 1) {
if (r2map[iy][x] != c) break;
if (r2edges[iy][x] & 0b1000 == 0) break;
r2edges[iy][x] &= ~@as(u8,0b1000);
}
}
if (y > 0 and r2map[y-1][x] == c) {
if (r2done[y-1][x] == 1) run2_r2(y-1, x, area, perimeter);
}
if (x > 0 and r2map[y][x-1] == c) {
if (r2done[y][x-1] == 1) run2_r2(y, x-1, area, perimeter);
}
if (y < r2dim-1 and r2map[y+1][x] == c) {
if (r2done[y+1][x] == 1) run2_r2(y+1, x, area, perimeter);
}
if (x < r2dim-1 and r2map[y][x+1] == c) {
if (r2done[y][x+1] == 1) run2_r2(y, x+1, area, perimeter);
}
}
fn run2(input: []const u8) !u64 {
var lines = std.mem.splitScalar(u8, input, '\n');
{
var y: usize = 0;
while (lines.next()) |line| {
if (std.mem.eql(u8, line, "")) continue;
std.mem.copyForwards(u8, &r2map[y], line);
std.debug.print("{s}\n",.{line});
r2dim = line.len;
y += 1;
}
}
std.debug.print("map max {}\n", .{r2dim});
var total: u64 = 0;
for (0..r2dim) |y| {
for (0..r2dim) |x| {
if (r2done[y][x] > 0) continue;
run2_r(y, x);
var area: u64 = 0;
var perimeter: u64 = 0;
run2_r2(y, x, &area, &perimeter);
total += area * perimeter;
}
}
return total;
}
var r1map: [256][256]u8 = [_][256]u8{[_]u8{0}**256}**256;
var r1done: [256][256]u8 = [_][256]u8{[_]u8{0}**256}**256;
var r1dim: usize = undefined;
fn run1_r(y: usize, x: usize, area: *u64, perimeter: *u64) void {
const c = r1map[y][x];
area.* += 1;
r1done[y][x] = 1;
if (y > 0 and r1map[y-1][x] == c) {
if (r1done[y-1][x] == 0) run1_r(y-1, x, area, perimeter);
} else {
perimeter.* += 1;
}
if (x > 0 and r1map[y][x-1] == c) {
if (r1done[y][x-1] == 0) run1_r(y, x-1, area, perimeter);
} else {
perimeter.* += 1;
}
if (y < r1dim-1 and r1map[y+1][x] == c) {
if (r1done[y+1][x] == 0) run1_r(y+1, x, area, perimeter);
} else {
perimeter.* += 1;
}
if (x < r1dim-1 and r1map[y][x+1] == c) {
if (r1done[y][x+1] == 0) run1_r(y, x+1, area, perimeter);
} else {
perimeter.* += 1;
}
}
fn run1(input: []const u8) !u64 {
var lines = std.mem.splitScalar(u8, input, '\n');
{
var y: usize = 0;
while (lines.next()) |line| {
if (std.mem.eql(u8, line, "")) continue;
std.mem.copyForwards(u8, &r1map[y], line);
std.debug.print("{s}\n",.{line});
r1dim = line.len;
y += 1;
}
}
std.debug.print("map max {}\n", .{r1dim});
var total: u64 = 0;
for (0..r1dim) |y| {
for (0..r1dim) |x| {
if (r1done[y][x] == 1) continue;
var area: u64 = 0;
var perimeter: u64 = 0;
run1_r(y, x, &area, &perimeter);
total += area * perimeter;
}
}
return total;
}